Physics of III-V compounds /
SEMICONDUCTORS & amp; SEMIMETALS V1.
Clasificación: | Libro Electrónico |
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Otros Autores: | , |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
New York :
Academic Press,
1966.
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Colección: | Semiconductors and semimetals ;
v. 1. |
Temas: | |
Acceso en línea: | Texto completo Texto completo |
Tabla de Contenidos:
- Front Cover; Physics of III-V Compounds; Copyright Page; Contents; List of Contributors; Preface; Contents of Other Volumes; PART I: INTRODUCTION; Chapter 1. Some Key Features of III-V Compounds; I. Introduction; II. Band Structure; III. Effective Masses; IV. Effective Charge; V. Transport Properties; VI. Future Progress; PART II: BAND STRUCTURE; Chapter 2. Methods of Band Calculations Applicable to III-V Compounds; I. Introduction; II. Classification of the Electronic States; III. Symmetry Functions and Matrix Elements; IV. Approaches to the Calculation of the Electronic States.
- v. Qualitative Features of the Band Structure and Preliminary CalculationsVI. Conclusions and Lines of Future Progress; Chapter 3. The k � p Method; I. Introduction; II. Scope of Present Paper; III. The k � p Representation; IV. Specific Diamond and Zinc Blende Symmetries; Appendix; Chapter 4. Effect of Heavy Doping on the Semiconductor Band Structure; I. Introduction; II. Main Features of the Heavily Doped Semiconductors; III. Characteristics of the Many-Electron System; IV. Perturbation Theory; V. Semiclassical Approximation.
- Chapter 5. Energy Band Structures of Mixed Crystals of III-V CompoundsI. Introduction; II. Energy Gap versus Composition; III. Other Band Parameters versus Composition; PART III: MAGNETIC FIELD EFFECTS; Chapter 6. Magnetic Quantum Effects; I. Introduction; II. Magnetic Susceptibility; III. Quantum Galvanomagnetic Effects; Chapter 7. Thennomagnetic Effects in the Quantum Region; I. Introduction; II. Thermoelectric Power in High Magnetic Fields; III. Compound Semiconductors of III-V Group; IV. Oscillations Induced by Optical Phonons.
- Chapter 8. Band Characteristics near Principal Minima from MagnetoresistanceI. Introduction; II. Survey; III. Experimental Measurements; IV. Negative Magnetoresistance; Chapter 9. Freeze-Out Effects, Hot Electron Effects, and Submillimeter Photoconductivity in InSb; I. Freeze-Out Effects; II. Hot Electron Effects at Low Temperatures; III. Submillimeter Photoconductivity; Chapter 10. Magnetoresistance; I. Introduction; II. Shape of Specimen and Electrodes; III. Inhomogeneities; IV. The Homogeneous Rodlike Semiconductor; V. Influence of Pressure; PART IV: PLASMA EFFECTS.
- Chapter 11. Plasmas in Semiconductors and SemimetalsI. Definitions; II. Plasma Oscillations; III. Magnetoreflection and Absorption.; IV. Wave Propagation; V. Pinch Effect; VI. Instabilities; VII. Conclusions; Notation; Author Index; Subject Index.